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| United States Patent |
5,148,761
|
|
Winner
|
*
September 22, 1992
|
Daggerfin adjustable sailboard skeg
Abstract
A wind propelled sailing apparatus having a sailboard hull adapted to
support a user; a sail for propulsion of the sailboard hull and adapted to
receive wind for motive power; a skeg positioned and oriented in a rear
central portion of the sailboard hull, the skeg being adjustable between a
first position, whereby the skeg has a surface area sufficient to prove
lateral resistance to side forces generated by the said and to provide
directional stability to the sailboard hull when sailing upwind, and a
second position, whereby the area of the skeg is reduced for sailing
downwind; and a housing for the skeg which facilitates vertical upward and
downward movement thereof, the housing having an opening configured and
positioned about the skeg to minimize air entrainment between the housing
opening and skeg to the underside of the sailboard hull due to forward
movement thereof.
| Inventors:
|
Winner; William K. (White Salmon, WA)
|
| Assignee:
|
Bic Corporation (Milford, CT)
|
| [*] Notice: |
The portion of the term of this patent subsequent to August 13, 2008
has been disclaimed. |
| Appl. No.:
|
740756 |
| Filed:
|
August 5, 1991 |
| Current U.S. Class: |
114/39.15; 441/79 |
| Intern'l Class: |
B63B 035/79 |
| Field of Search: |
441/79,74
114/127,138,141,39.2,130,139,140,39.1
|
References Cited
U.S. Patent Documents
| Re31167 | Mar., 1983 | Schweitzer et al.
| |
| 2466006 | Apr., 1949 | Danko | 114/139.
|
| 3110281 | Nov., 1963 | Buck | 9/310.
|
| 3308493 | Mar., 1967 | Lambach | 114/138.
|
| 3381648 | May., 1988 | Vonck | 114/39.
|
| 3455261 | Jul., 1969 | Perrin | 9/310.
|
| 3516100 | Jun., 1970 | Ellis | 9/310.
|
| 3564632 | Feb., 1971 | Bahne, Jr. | 9/310.
|
| 3579681 | May., 1971 | Pope et al. | 9/310.
|
| 3585663 | Jun., 1971 | Johnson | 9/310.
|
| 4161796 | Jul., 1979 | Kostanecki | 9/6.
|
| 4166425 | Sep., 1979 | Kummetz | 114/39.
|
| 4280428 | Jul., 1981 | Werner, Jr. | 114/39.
|
| 4316425 | Feb., 1982 | Guido et al. | 114/141.
|
| 4421492 | Dec., 1983 | Leva | 441/79.
|
| 4759308 | Jul., 1988 | Zander | 114/127.
|
| 4759552 | Jul., 1988 | Schutz | 277/12.
|
| 4805546 | Feb., 1989 | Geller et al. | 114/132.
|
| 5038698 | Aug., 1991 | Winner | 441/79.
|
| Foreign Patent Documents |
| 17231 | Oct., 1980 | EP.
| |
| 310686 | Apr., 1989 | EP.
| |
| 2924913 | Jan., 1981 | DE.
| |
| 3147670 | Jun., 1983 | DE.
| |
| 3440553 | Mar., 1985 | DE.
| |
| 8906927.7 | Nov., 1989 | DE.
| |
| 8914642.5 | Mar., 1990 | DE.
| |
| 1123150 | Sep., 1956 | FR.
| |
| 2053507 | May., 1971 | FR.
| |
| 2614867 | Nov., 1988 | FR.
| |
| 204754 | Jun., 1964 | SE.
| |
| 1008080 | Mar., 1983 | SU.
| |
| 2053804 | Feb., 1981 | GB.
| |
Other References
Pucher, "Steck's Weg", Surf Magazine, Sep. 1989.
Rogers, "The Adjustable Fin", Windsurf, Sep. 1989.
|
Primary Examiner: Basinger; Sherman
Attorney, Agent or Firm: Pennie & Edmonds
Parent Case Text
CROSS REFERENCE TO RELATED APPLICATIONS
This application is a continuation-in-part of application Ser. No.
07/414,801 filed Sep. 29, 1989, now U.S. Pat. No. 5,038,678.
Claims
I claim:
1. A wind propelled sailing apparatus comprising a sailboard hull adapted
to support a user and having a rearward end; means for propulsion of said
sailboard hull and adapted to receive wind for motive power; a skeg
positioned and oriented in a central portion of said rearward end of said
sailboard hull as the sole means for providing lateral resistance and
directional control for the apparatus, said skeg being adjustable between
a first position, whereby said skeg has a surface area sufficient to
provide lateral resistance to side forces generated by said propulsion
means and to provide directional stability to said sailboard hull when
sailing upwind, and a second position, whereby the area of the skeg is
reduced for sailing downwind; and means for housing said skeg and
facilitating vertical upward and downward movement thereof, said housing
means being fixed in position with respect to said sailboard hull, having
an opening configured and positioned about said skeg and a flexible seal
member positioned in said opening, said seal member surrounding and
resiliently contacting said skeg and having sufficient resiliency to
conform to the shape of said skeg both initially and during movement
thereof to prevent air entrainment between said housing opening and skeg
to the underside of the sailboard hull due to forward movement thereof and
to prevent water from being forced upward through the housing opening from
beneath the sailboard hull.
2. The apparatus of claim 1 wherein the skeg is slidably adjustable between
the first and second positions and further including means for prevention
of downward vertical movement of said skeg beyond a predetermined distance
corresponding to said first position.
3. The apparatus of claim 2 wherein said skeg downward movement prevention
means comprises a lip portion on the upper end of said skeg which is
operatively associated with said housing opening.
4. The apparatus of claim 3 wherein said skeg downward movement prevention
means further comprises a pad member mounted upon the upper surface of
said sailboard hull.
5. The apparatus of claim 3 wherein said skeg downward movement prevention
means further comprises a seat member located within said housing opening.
6. The apparatus of claim 5 further comprising means operatively associated
with said lip portion for raising said skeg from said first position
towards said second position.
7. The apparatus of claim 1 further including means for prevention of
upward vertical movement of the skeg beyond a predetermined distance
corresponding to said second position.
8. The apparatus of claim 1 whereas said skeg includes means located on the
upper end thereof for raising or retracting said skeg from said first
position towards said second position.
9. The apparatus of claim 8 wherein said skeg includes a lip portion on the
upper end thereof, and wherein said skeg retracting means comprises a
strap member connected to said lip portion.
10. The apparatus of claim 1 wherein said flexible seal member comprises
resilient polyurethane foam.
11. The apparatus of claim 1 further comprising means for raising said skeg
from said first position towards said second position.
12. A wind propelled sailing apparatus comprising a sailboard hull adapted
to support a user; means for propulsion of said sailboard hull and adapted
to receive wind for motive power; a skeg positioned and oriented in a rear
central portion of said sailboard hull as the sole means for providing
lateral resistance and directional control for the apparatus, said skeg
being adjustable between a first position, whereby said skeg has a surface
area sufficient to provide lateral resistance to side forces generated by
said propulsion means and to provide directional stability to said
sailboard hull when sailing upwind, and a second position, whereby the
area of the skeg is reduced for sailing downwind; means for housing said
skeg and facilitating vertical upward and downward movement thereof, said
housing means having an opening configured and positioned about said skeg
and a flexible seal member positioned in said opening, said seal member
surrounding and resiliently contacting said skeg to prevent air
entrainment between said housing opening and skeg to the underside of the
sailboard hull due to forward movement thereof and to prevent water from
being forced upward through the housing opening from beneath the sailboard
hull; and means for preventing of upward vertical movement of said skeg
beyond a predetermined distance corresponding to said second position,
said skeg upward movement prevention means comprising a strap member
connecting said skeg to said housing.
13. A wind propelled sailing apparatus comprising a sailboard hull adapted
to support a user; means for propulsion of said sailboard hull and adapted
to receive wind for motive power; a skeg having front and rear edges, an
upper portion, and a lower portion and being positioned and oriented in a
rear central portion of said sailboard hull as the sole means for
providing lateral resistance and directional control for the apparatus,
said skeg being adjustable between a first position, whereby said skeg has
a surface area sufficient to provide lateral resistance to side forces
generated by said propulsion means and to provide directional stability to
said sailboard hull when sailing upwind, and a second position, whereby
the area of the skeg is reduced for sailing downwind; means for housing
said skeg and facilitating vertical upward and downward movement thereof,
said housing means having an opening configured and positioned about said
skeg to minimize air entrainment between said housing opening and skeg to
the underside of the hull due to forward movement thereof and to prevent
water from being forced upward through the housing opening from beneath
the sailboard hull; said skeg further including means for prevention of
downward vertical movement of said skeg beyond a predetermined distance
corresponding to said first position, and means for prevention of upward
vertical movement of said skeg beyond a predetermined distance
corresponding to said second position, said upward movement prevention
means comprising a shoulder on each of the front and rear edges of the
skeg positioned between the upper and lower portions thereof wherein the
shoulders and lower portion of said skeg are configured and dimensioned to
be greater in width from the front to rear edges than the longitudinal
dimension of the housing opening.
14. The apparatus of claim 13 wherein said skeg is slidably adjustable
between the first and second positions and wherein said skeg downward
movement prevention means comprises a lip portion on the upper end of said
skeg and a seat member associated with said housing opening.
15. The apparatus of claim 14 wherein said skeg downward movement
prevention means further comprises a pad member mounted upon the upper
surface of said sailboard hull.
16. The apparatus of claim 14 wherein said skeg downward movement
prevention means further comprises a seat member located within said
housing opening.
17. The apparatus of claim 13 wherein said skeg includes means located on
the upper end thereof for raising or retracting said skeg from said first
position to said second position.
18. The apparatus of claim 17 wherein said skeg retracting means comprises
a strap member connected to said lip portion.
19. The apparatus of claim 13 wherein said housing further comprises means
for contacting said skeg to further reduce said air entrainment and water
flow in said housing opening.
20. The apparatus of claim 19 wherein said contacting means comprises a
flexible seal member positioned in said opening for surrounding and
resiliently contacting said skeg.
21. The apparatus of claim 20 wherein said flexible seal member comprises
resilient polyurethane foam.
Description
TECHNICAL FIELD
The present invention relates to an adjustable area, vertically movable
skeg which projects from the lower rear surface of a sailboard. I refer to
this apparatus as a DAGGERFIN.TM. skeg.
BACKGROUND ART
Sailboards are generally constructed of a board of lightweight synthetic
plastic material to which is pivotally attached a mast which supports a
boom and sail. The mast, boom and sail are controllable by the user to
convert wind to motive power for the sailboard.
The board includes a fin which is positioned on the lower, rearward,
central underside of the board extending into the water. This fin is
generally referred to as a skeg and is usually fixed in size, shape and
position. The skeg provides hydrodynamic forces which combine with the
aerodynamic forces on the sail to provide motive power to the board. Such
skegs are used with all sailboards.
For boards longer than about 101/2 feet, an adjustable area keel positioned
generally in the lower center of the boards is also used. Such keels are
known as centerboards or daggerboards. A typical centerboard is about two
feet in span and about 6 inches in chord, while a typical skeg is about
eleven inches in span and four inches in chord. U.S. Reissue Pat. No.
31,167 illustrates a typical sailboard which uses both a centerboard and
skeg.
Centerboards also provide hydrodynamic forces which combine with the forces
generated by the sail to produce a net force which is in the direction of
motion of the sailboard. When a centerboard is not used, however, the skeg
is the sole means for providing not only directional stability to the
sailboard but also lateral resistance.
A profound effect on the performance of the sailboard can be achieved by
varying the sizes, shapes and locations of these fins and keels. A fin
and/or keel configuration that is fast for one point of sail or wind
strength may be slow on another. For example, a sailboard equipped with a
centerboard can sail upwind much better than a sailboard which is equipped
only with a standard skeg.
The present invention provides an improved skeg construction for optimizing
both the upwind and downwind sailing performance of sailboards utilizing
same, when such sailboards do not utilize a centerboard.
SUMMARY OF THE INVENTION
The present invention relates to a wind propelled sailing apparatus
comprising a sailboard hull adapted to support a user and means for
propulsion of the sailboard hull and adapted to receive wind for motive
power. The propulsion means generally is a sail, and the apparatus
includes a skeg positioned and oriented in a rear central portion of the
sailboard hull as the sole means for providing lateral resistance and
dimensional stability for the apparatus. The skeg is adjustable between a
first position, whereby the skeg has a surface area sufficient to provide
lateral resistance to side forces generated by the propulsion means and to
provide directional stability to the sailboard hull when sailing upwind,
and a second position whereby the area of the skeg is reduced for sailing
downwind. The adjustable skeg of the invention provides the necessary
lateral resistance and directional control for those sailboards which do
not include a centerboard.
The apparatus preferably includes means for housing the skeg and
facilitating vertical upward and downward movement thereof. The housing
means has an opening configured and positioned about the skeg and a
flexible seal member positioned in the opening for surrounding and
resiliently contacting the skeg to prevent (1) air entrainment between the
housing opening and skeg to the underside of the sailboard hull due to
forward movement thereof, and (2) water from being forced upward through
the opening from beneath the sailboard hull. The skeg, with the contacting
means preferably comprising a flexible seal member is preferably made of
resilient polyurethane foam, and the skeg is slidably adjustable between
the first and second positions. The seal member contacts a sufficient area
of the perimeter of the skeg to prevent air or water from passing between
the skeg and the seal member.
The apparatus further includes means for prevention of downward vertical
movement of the skeg beyond a predetermined distance which corresponds to
the first position. This skeg movement prevention means comprises a lip
portion on the upper end of the skeg which is operatively associated with
the housing opening. Depending upon the specific embodiments disclosed
herein, such skeg movement prevention means may further comprise a pad
member mounted upon the upper surface of the sailboard hull, or a seat
member located within the housing opening.
The apparatus also includes means for prevention of upward vertical
movement of the skeg beyond a predetermined distance corresponding to the
second position. This skeg movement prevention means can be a strap member
connected between the skeg and the housing to limit the uppermost position
of the skeg. Instead, the lower portion of the skeg can be dimensioned
slightly wider than the housing to prevent the additional upward movement.
Such means also prevents the skeg from being pulled out of the housing by
the user, or expelled from the housing in the event of an upset of the
sailboard.
Preferably, the skeg includes means located on the upper end thereof for
the raising or retraction of the skeg from the first position towards the
second position. When the skeg includes a lip portion on the upper end
thereof, the skeg raising means may comprise a strap member connected to
the lip portion.
BRIEF DESCRIPTION OF THE DRAWINGS
The nature, advantages and various other additional features of the
preferred embodiments of the invention will appear more fully upon
consideration of the attached drawing figures, wherein:
FIG. 1 is a side view of a first embodiment of a DAGGERFIN.TM. skeg in
accordance with the present invention;
FIG. 2 is a cross-sectional view of the skeg and sailboard of FIG. 1 taken
along lines 2--2 of FIG. 1;
FIG. 3 is a side view of an alternate embodiment of a DAGGERFIN.TM. skeg in
accordance with the present invention, which illustrates a skeg housing
which maintains a minimum skeg surface area beneath the sailboard.
FIG. 4 is a perspective view of another embodiment of a DAGGERFIN.TM. skeg,
which is operated by a foot control to adjust the length of the skeg which
extends into the water;
FIG. 5 is a perspective view of a sailboard which illustrates the position
of the DAGGERFIN.TM. of the invention; and
FIG. 6 is a side view of a further embodiment of a DAGGERFIN.TM. skeg in
accordance with the present invention, which illustrates a skeg having a
wider bottom portion to limit upward movement.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring initially to FIGS. 1 and 2, there is illustrated a DAGGERFIN.TM.
skeg 100 which is made of molded or laminated plastic material. The skeg
is shaped in such a manner that it has a uniform cross-section area for
the portion that passes through the board, as well as a tapered lower
portion 105. The front 110 and rear 115 edges of the skeg 100 are shaped
and configured to decrease hydrodynamic drag forces thereupon. The
movement of the sailboard along the water allows the skeg to generate a
force which opposes that imparted to the board from the sail. The forces
which are generated by the sail in a direction sideways or perpendicular
to the board are effectively canceled by the forces generated by the skeg.
Thus, the movement of the board 125 is in a forward direction, i.e., the
direction that the sailboard is pointing.
The skeg 100 is vertically movable so that the length of the lower portion
105 can be adjusted by the user of the board 125. In the lowest position,
the lower portion 105 of the skeg 100 extends about 18" below the board
125. The greatest extension of the skeg 100 creates the greatest drag on
the speed of the sailboard 125, so that the slowest speeds are achieved in
this position. This position also greatly facilitates operation of the
sailboard upwind.
The top portion 120 of the skeg 100 includes a lip portion 130 which is
wider than the slot through which the skeg 100 moves vertically. Thus, lip
portion 130 prevents the skeg 100 from being pushed downward through the
board or from being pulled out from the lower side of the board. Top
portion 120 also includes a strap 135 attached to the forward and rearward
ends of the lip portion 130 so as to provide a loop which can be grasped
by the foot or hand of the user. As the user desires to gain speed or when
operating the sailboard downwind, the skeg 100 is pulled upwardly by
exerting an upward force on strap 135 by the user's foot or hand. A
reduced extension length of about 11 to 12 inches for the skeg is
generally desirable for most sailboarding. This allows the sailboard to
achieve the highest speeds.
As noted above, the skeg 100 is placed in housing 150 on the rearward end
of the sailboard behind the rearmost foot straps 140, 145. This housing
150 includes an opening which is configured to be both longer and wider
than the width and length of the skeg 100 to allow for vertical movement
thereof. The opening of the housing should be sufficient to allow vertical
movement of skeg 100, but should not be oversized, since too large an
opening could cause air to be sucked down to the underside of the board.
This phenomenon, known as skeg ventilation, is particularly troublesome to
sailboards because the entrainment of air on the underside or low pressure
side of the skeg results in a severe reduction of lateral resistance. To
overcome this problem, the opening in the housing is made at the minimum
dimension which still allows the skeg 100 to vertically move upward and
downward. In addition, a resilient seal member 155 should be provided, as
best illustrated in FIG. 2, to minimize such air entrainment. This seal
member 155 is preferably made of a flexible polyurethane foam having
sufficient resiliency to conform to the shape of the skeg and form an
air-tight and water-tight seal around the skeg 100 while also allowing the
skeg to be moved vertically upward or downward. This seal member 155
contacts a sufficient area of the perimeter of the skeg to prevent air or
water from being forced upward through the housing opening.
Skeg 100 also includes upward movement prevention means in the form of a
connecting cord or strap 160 extending from the lip portion 130 to the
housing 150. Strap 160 prevents the skeg 100 from being accidentally or
intentionally removed from housing 150. Alternatively, instead of strap
160, the lower portion 105 of skeg 100 can be configured and dimensioned
to be wider than the housing opening. In addition to preventing removal of
the skeg, this wider portion assists in preventing air entrainment and
water flow between the skeg and housing opening when the skeg is placed in
its uppermost (i.e.--second) position.
Referring now to FIG. 3, there is illustrated an alternate embodiment of
the DAGGERFIN.TM. skeg 200 of the invention. In this embodiment, skeg 205
is vertically adjustable in a housing 210 which provides a permanent
extension below the bottom of sailboard 225. This housing 210 acts as a
support structure that allows skeg 205 to operate entirely within the
sailboard and not extend above the deck thereof. This DAGGERFIN.TM. skeg
205 includes lip portion 215 and is again mounted rearward of foot strap
230. Lip portion 215 engages an interior ledge 235 of the housing, which
ledge provides a stop for the lowest position of the skeg 205. This
embodiment is less preferable to that of FIG. 1, since the housing
extension is redundant to the skeg when the skeg is in its uppermost
position.
Referring now to FIG. 4, there is illustrated a foot control 250 which is
used for raising the DAGGERFIN.TM. skeg 255 from its lowest position,
i.e., the first position where lip portion 260 is adjacent pad member 265,
to a higher position. This skeg raising operation effectively reduces the
surface area of the skeg which is beneath the water so that faster speeds
or better downwind sailing may be achieved. Also, pad member 265 is
mounted on top of the housing to assist in reducing air entrainment
therein. Also, as shown above, a strap member 295 could be utilized to
prevent the upward movement of the skeg. If desired, a seal member similar
to that of FIG. 2 should be included in the housing for reduction of an
air entrainment or water movement through the housing opening.
Foot control 250 includes a U-shaped foot pedal 270 which is mounted to the
sailboard 275 at the same location as foot straps 280. Foot pedal 270 is
rigidly attached to a pair of elongated arm members 285, one on each side
of skeg 255. The foot pedal 270 and arm members 285 are fixed at a
predetermined angle and are pivotable about point 290. Although an angle
of substantially 90.degree. is illustrated, other angles can be used, if
desired, depending upon the length of skeg to be raised from the first
position to the second position or to any point therebetween. Foot pedal
270 and arm members 285 are constructed of a rigid material that is
resistant to seawater. Stainless steel is preferred although certain high
strength engineering thermoplastics could be used instead.
In operation, the user sets the skeg 255 at its lowermost, fully extended
(i.e. first) position whereby lip portion 260 is adjacent plate member
265. Arm members 285 and foot pedal 270 thus are placed in the position
shown in phantom in FIG. 4. Foot pedal 270 extends in a substantially
vertical direction where it can easily be moved by the user's foot to lift
the skeg 255 by the upward movement of arm members 285 upon lip portion
260. Further depression of foot pedal 270 causes arm members 285 to be
moved further upward, with a corresponding upward movement of skeg 255. In
this embodiment, skeg 255 may or may not utilize a strap member for
retraction, since the raising of the skeg by the foot control 250 places
the upper portion of the skeg in any position up to its uppermost position
(i.e., the second position).
It is understood that foot control 250 is operable with any of the
preceding embodiments and that the skeg of FIG. 4 can include a top strap
and a connecting strap, if desired. For optimum performance, a
polyurethane seal member should be included in each embodiment to minimize
or prevent air entrainment beneath the sailboard and to prevent water from
being forced upward through the housing opening from below the sailboard.
FIG. 5 is a perspective view of a sailboard to illustrate the position of
the DAGGERFIN.TM. skeg of FIG. 1 with respect to the other sailboard
components, such as the sail and footstraps.
FIG. 6 is an illustration of another embodiment of the DAGGERFIN.TM. skeg
of the invention. This skeg 300 is similar to that of FIG. 1 in that it
includes a uniform cross sectional area for the portion 305 that passes
through the board 310, a tapered lower portion 315, front 320 and rear 325
edges shaped and configured to decrease hydrodynamic drag forces
thereupon, a lip portion 330 which is wider than the slot through which
the skeg moves vertically, skeg housing 335 and strap 340 attached to the
forward and rearward ends of lip portion 330. In this embodiment, upward
movement prevention means is provided by configuring the lower portion 315
of the skeg to have wider dimensions than that slot through which the
upper portion 305 passes. Thus, a shoulder 350 is provided between the
upper portion 305 and lower portion 315 of the skeg. When the skeg is
fully raised to its uppermost position, shoulder 350 is adjacent the
bottom of the sailboard hull 310 and is prevented from moving further
upward due to the smaller dimensions of the slot. This position allows the
lower portion 315 of the skeg to define the minimum surface area of the
skeg required for fast, i.e., downwind, sailing. For sailing upwind or
when a maximum amount of directional stability is desired, the skeg may be
placed in a fully extended or lowermost position, where the lip portion
330 abuts housing 335 and is prevented from further downward movement. The
skeg may also be positioned at any point between the lowermost and
uppermost positions by the user's foot or hand engaging strap 340.
While it is apparent that the invention herein disclosed is well calculated
to fulfill the objects above stated, it will be appreciated that numerous
modifications and embodiments may be devised by those skilled in the art,
and it is intended that the appended claims cover all such modifications
and embodiments as fall within the true spirit and scope of the present
invention.
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